[PDF] Non Precious Metal Based Electrocatalysts For Oxygen Reduction In Proton Exchange Membrane Fuel Cells And Electrolyzers eBook

Author : Urszula Tylus
Publisher :
Page : 111 pages
File Size : 38,63 MB
Release : 2014
Category : Catalysts
ISBN :

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The oxygen reduction reaction (ORR) is a key process in various electrochemical energy conversion devices such as fuel cells and metal batteries as it enables CO2-free electrical energy generation. One of the major challenges in these devices is the sluggish kinetics of ORR and thus the need for stable and highly active electrocatalysts. The currently utilized catalytic materials are based on precious group metals (PGM), including platinum, rhodium, or silver. Although the PGM-based catalysts are highly active and reasonably stable under harsh acidic fuel cell conditions, the PGM-systems contribute to high cost of the energy conversion device. This is further aggravated by the high sensitivity of the PGM-catalysts to the presence of small amounts of impurities in the real world environment causing performance decay. These challenges pushed researchers to look for a cost-effective and highly active alternate catalyst materials based on non-precious group metals (non-PGM). Currently, the most promising non-PGM systems are comprised of transition metal-nitrogen-carbon (M-N-C) containing catalysts. Despite several decades of effort to obtain the "perfect" M-N-C catalyst, there is still a fair amount of work to be done mainly towards understanding the origin of ORR activity in these complex M-N-C systems. The objective in these studies is to design the optimal active structure that is able to provide high and selective performance sustained even in very corrosive environments. Element-specific in-situ X-ray absorption spectroscopy (XAS) coupled with standard electrochemical methodology (mainly Rotating Ring Disc Eelectrode, RRDE) is a great tool to study surface active catalytic systems. With a careful experimental design, "in-situ" XAS is able to provide very useful mechanistic information regarding structural properties of the active centers and their behavior in simulated electrochemical environments. Chapter 1 contains a brief description of fundamental aspects of the oxygen reduction reaction, and related challenges. This includes: electrolyte-dependent general description of the ORR mechanistic pathways, and currently known relations between electronic/structural properties of known PGM and non-PGM materials and their catalytic activity. The major electroanalytical and spectroscopic techniques are also discussed, aiming to provide introductory information to the reader needed to understand the experimental work discussed in the following chapters. As the main point of interest is ORR kinetics, which comprise the performance and degradation modes in an aqueous environment, Chapter 2 discusses comparative characteristics of mechanistic ORR pathways (in acid and alkaline media) with a group of the M-N-C catalysts synthesized via various routes. The electroanalytical studies shown in Chapter 2 are followed by more detailed mechanistic investigations (in Chapter 3) wherein the ORR kinetics on the M-N-C catalysts is investigated using "in-situ" spectro-electrochemical XAS methodologies of transition metal centers. Different forms of the metals and their mechanistic roles are investigated by ORR kinetic studies and behavioral monitoring after selective removal or blocking each of the moieties. The information obtained by the mechanistic studies are used in Chapter 4 to discuss the effect of chloride anions on the overall M-N-C activity with the aim to predict their potential use as O2-consuming cathodes in industrial environments involving presence of the chloride species, known to be a strong poison for platinum-based catalysts. Finally, Chapter 5 shows performance non-PGM catalysts developed at NEU based on carbon supported polymer and self-supported Metal Organic Framework (MOF) iron comprising M-N-C catalysts as oxygen depolarized cathodes for recycling of chlorine gas from hydrochloric acid, a common bi-product in industrial chemical plants. Chapter 5 discusses structure-property relationship of the M-N-C catalysts, and their iron-based active centers to overall catalytic performance and stability in such corrosive environment as concentrated hydrochloric acid. The Chapter 5 also covers a promising preliminary study of utilization of the M-N-C catalysts as Oxygen De-polarized Cathodes (ODC) in the chlor-alkali process for Cl2-production. Finally, Chapter 6 summarized the work presented here and discusses future perspectives for applications of the non-PGM catalysts.

Author : Hui Yang
Publisher : MDPI
Page : 190 pages
File Size : 41,93 MB
Release : 2019-11-01
Category : Science
ISBN : 303921540X

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Research on alternative energy harvesting technologies, conversion and storage systems with high efficiency, cost-effective and environmentally friendly systems, such as fuel cells, rechargeable metal-air batteries, unitized regenerative cells, and water electrolyzers has been stimulated by the global demand on energy. The conversion between oxygen and water plays a key step in the development of oxygen electrodes: oxygen reduction reaction (ORR) and oxygen evolution reaction (OER), processes activated mostly by precious metals, like platinum. Their scarcity, their prohibitive cost, and declining activity greatly hamper large-scale applications. This issue reports on novel non-precious metal electrocatalysts based on the innovative design in chemical compositions, structure, and morphology, and supports for the oxygen reaction.

Author : Zhongwei Chen
Publisher : John Wiley & Sons
Page : 448 pages
File Size : 43,37 MB
Release : 2014-04-03
Category : Technology & Engineering
ISBN : 3527664920

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Written and edited by top fuel cell catalyst scientists and engineers from both industry and academia, this is the first book to provide a complete overview of this hot topic. It covers the synthesis, characterization, activity validation and modeling of different non-noble metal electrocatalysts, as well as their integration into fuel cells and their performance validation, while also discussing those factors that will drive fuel cell commercialization. With its well-structured approach, this is a must-have for researchers working on the topic, and an equally valuable companion for newcomers to the field.

Author : Deepika Singh
Publisher :
Page : pages
File Size : 36,24 MB
Release : 2014
Category :
ISBN :

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The growth process of nitrogen-doped carbon nano-structures (CNx) was studied using in-situ and ex-situ characterization techniques. It was found that the Co phase was seen to go through different transformations during the pyrolysis process, depending on the growth substrate used. CNx fibers that formed were acid-washed, and the structure of CNx obtained as well as the nitrogen content was significantly different on the two substrates, which led to activity differences seen in RRDE.

Author : Dmitri Bessarabov
Publisher : Academic Press
Page : 140 pages
File Size : 44,28 MB
Release : 2018-08-04
Category : Science
ISBN : 0081028318

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PEM Water Electrolysis, a volume in the Hydrogen Energy and Fuel Cell Primers series presents the most recent advances in the field. It brings together information that has thus far been scattered in many different sources under one single title, making it a useful reference for industry professionals, researchers and graduate students. Volumes One and Two allow readers to identify technology gaps for commercially viable PEM electrolysis systems for energy applications and examine the fundamentals of PEM electrolysis and selected research topics that are top of mind for the academic and industry community, such as gas cross-over and AST protocols. The book lays the foundation for the exploration of the current industrial trends for PEM electrolysis, such as power to gas application and a strong focus on the current trends in the application of PEM electrolysis associated with energy storage. Presents the fundamentals and most current knowledge in proton exchange membrane water electrolyzers Explores the technology gaps and challenges for commercial deployment of PEM water electrolysis technologies Includes unconventional systems, such as ozone generators Brings together information from many different sources under one single title, making it a useful reference for industry professionals, researchers and graduate students alike

Author : Yongjun Feng
Publisher :
Page : 1 pages
File Size : 18,46 MB
Release : 2019
Category : Electronic books
ISBN : 9783039215416

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Research on alternative energy harvesting technologies, conversion and storage systems with high efficiency, cost-effective and environmentally friendly systems, such as fuel cells, rechargeable metal-air batteries, unitized regenerative cells, and water electrolyzers has been stimulated by the global demand on energy. The conversion between oxygen and water plays a key step in the development of oxygen electrodes: oxygen reduction reaction (ORR) and oxygen evolution reaction (OER), processes activated mostly by precious metals, like platinum. Their scarcity, their prohibitive cost, and declining activity greatly hamper large-scale applications. This issue reports on novel non-precious metal electrocatalysts based on the innovative design in chemical compositions, structure, and morphology, and supports for the oxygen reaction.

Author : Abhijit Ray
Publisher : BoD – Books on Demand
Page : 130 pages
File Size : 26,26 MB
Release : 2018-12-05
Category : Science
ISBN : 1789848121

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The book starts with a theoretical understanding of electrocatalysis in the framework of density functional theory followed by a vivid review of oxygen reduction reactions. A special emphasis has been placed on electrocatalysts for a proton-exchange membrane-based fuel cell where graphene with noble metal dispersion plays a significant role in electron transfer at thermodynamically favourable conditions. The latter part of the book deals with two 2D materials with high economic viability and process ability and MoS2 and WS2 for their prospects in water-splitting from renewable energy.

Author :
Publisher :
Page : pages
File Size : 17,8 MB
Release : 2016
Category :
ISBN :

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We report that identification of low cost, highly active, durable completely noble metal-free electro-catalyst for oxygen reduction reaction (ORR) in proton exchange membrane (PEM) fuel cells, oxygen evolution reaction (OER) in PEM based water electrolysis and metal air batteries remains one of the major unfulfilled scientific and technological challenges of PEM based acid mediated electro-catalysts. In contrast, several non-noble metals based electro-catalysts have been identified for alkaline and neutral medium water electrolysis and fuel cells. Furthermore, we report for the very first time, F doped Cu1.5Mn1.5O4, identified by exploiting theoretical first principles calculations for ORR and OER in PEM based systems. The identified novel noble metal-free electro-catalyst showed similar onset potential (1.43 V for OER and 1 V for ORR vs RHE) to that of IrO2 and Pt/C, respectively. The system also displayed excellent electrochemical activity comparable to IrO2 for OER and Pt/C for ORR, respectively, along with remarkable long term stability for 6000 cycles in acidic media validating theory, while also displaying superior methanol tolerance and yielding recommended power densities in full cell configurations.

Author : Omar Solorza Feria
Publisher : CRC Press
Page : 350 pages
File Size : 19,85 MB
Release : 2024-06-21
Category : Science
ISBN : 1040043496

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Global warming switches our reliance from fossil fuels to green, sustainable renewable energy sources. Because of its promising nature, high-efficiency nano-electrocatalysts have sparked interest in renewable energy. Hydrogen fuel cell/polymer electrolyte membrane (PEM) vehicles are the most environmentally conscious electromobility vehicles, with a high energy density and quick refuelling technology, prompting the auto industry to launch a variety of PEM fuel cell vehicles around the world. Oxygen reduction reaction (ORR) primary research interests include fuel cells and metal-air batteries. The sluggish kinetic reaction of ORR, which is responsible for the rate-limiting reaction at the PEM fuel cell cathodic system, further decreases energy efficiency. Optimising ORR for market expansion with cost-effective and efficient nano-electrocatalysts, on the other hand, remains a challenge. The book covers fundamental ORR reaction kinetics theories, tools, and techniques. It also explains the nano electrocatalysts for ORR made of noble, non-noble, and nanocarbon materials. Finally, the book explores the applications of PEM fuel cells and metal-air batteries.

Author : Francisco Javier Rodríguez-Varela
Publisher : Springer
Page : 318 pages
File Size : 28,62 MB
Release : 2018-10-09
Category : Science
ISBN : 3319990195

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This book introduces the reader to the state of the art in nanostructured anode and cathode electrocatalysts for low-temperature acid and alkaline fuel cells. It explores the electrocatalysis of anode (oxidation of organic molecules) and cathode (oxygen reduction) reactions. It also offers insights into metal-carbon interactions, correlating them with the catalytic activity of the electrochemical reactions. The book explores the electrocatalytic behaviour of materials based on noble metals and their alloys, as well as metal-metal oxides and metal-free nanostructures. It also discusses the surface and structural modification of carbon supports to enhance the catalytic activity of electrocatalysts for fuel-cell reactions.